ProjectElektro- und Photoproduktion von Baryonen und möglichen Hybridzuständen bei großem Impulstransfer
Basic data
Title:
Elektro- und Photoproduktion von Baryonen und möglichen Hybridzuständen bei großem Impulstransfer
Duration:
01/10/2018 to 30/09/2021
Abstract / short description:
Data on electromagnetic (transition) form factors provide important information on hadron
dynamics and inner structure of nucleon and nucleon resonances. The traditional quark model
refers only to the rest frame, whereas decay and scattering processes require a description of
hadrons in motion. This may be accomplished using Light-Front (LF) wave functions. Contributions
of Fock states beyond |qqqi necessarily exist for relativistic dynamics, and are seen
in DIS. Such contributions can be modelled as |qqq q¯qi, |qqq gi and as meson-baryon states
|MBi. Comparisons between models and form factor data indicate that the higher Fock states
contribute mainly for Q2 . 2 GeV2, whereas “quark core” |qqqi states remain at higher Q2.
This is consistent with dimensional counting rules and pQCD expectations. Higher Fock states
appear to be enhanced for radial excitations such as the Roper N∗(1440). Contributions of
higher Fock states may be described either in the quark-gluon (|qqq q¯qi, |qqq gi, . . . ) or hadron
(|MBi , . . .) basss.
dynamics and inner structure of nucleon and nucleon resonances. The traditional quark model
refers only to the rest frame, whereas decay and scattering processes require a description of
hadrons in motion. This may be accomplished using Light-Front (LF) wave functions. Contributions
of Fock states beyond |qqqi necessarily exist for relativistic dynamics, and are seen
in DIS. Such contributions can be modelled as |qqq q¯qi, |qqq gi and as meson-baryon states
|MBi. Comparisons between models and form factor data indicate that the higher Fock states
contribute mainly for Q2 . 2 GeV2, whereas “quark core” |qqqi states remain at higher Q2.
This is consistent with dimensional counting rules and pQCD expectations. Higher Fock states
appear to be enhanced for radial excitations such as the Roper N∗(1440). Contributions of
higher Fock states may be described either in the quark-gluon (|qqq q¯qi, |qqq gi, . . . ) or hadron
(|MBi , . . .) basss.
Keywords:
Elektromagnetische Übergangsformfaktoren
Innere Struktur der Nukleonen
Nukleonen
Nukleonresonanzen
Involved staff
Managers
Institute for Theoretical Physics (ITP)
Department of Physics, Faculty of Science
Department of Physics, Faculty of Science
Institute for Theoretical Physics (ITP)
Department of Physics, Faculty of Science
Department of Physics, Faculty of Science
Local organizational units
Institute for Theoretical Physics (ITP)
Department of Physics
Faculty of Science
Faculty of Science
Funders
Bonn, Nordrhein-Westfalen, Germany